Large, powerful solar flares have been investigated in detail for decades, but it is only recently that high-energy aspects of small flares could be measured. These small-scale energy releases offer the opportunity to examine how particle acceleration characteristics scale down, which is critical for constraining energy transfer theories such as magnetic reconnection. Probing to minuscule flare sizes also brings us closer to envisioning the characteristics of the small "nanoflares" that may be responsible for heating the corona. A new window on small-scale flaring activity is now opening with the use of focusing hard X-ray instruments to observe the Sun. Hard X-rays are emitted by flare-accelerated electrons and strongly heated plasma, prov...
We review the observations bearing on electron and ion acceleration in solar flares, and the key cha...
Solar flares are observed at all wavelengths from decameter radio waves to gamma-rays at 100 MeV. Th...
Solar flares are among the most energetic and interesting phenomena in the Solar system, releasing u...
Solar flares are the most vigorous explosive phenomena in our solar system. They release up to $\sim...
Solar flares are huge explosions on the Sun that release a tremendous amount of energy from the coro...
Impulsive particle acceleration and plasma heating at the Sun, from the largest solar eruptive event...
Impulsive particle acceleration and plasma heating at the Sun, from the largest solar eruptive event...
We report the detection of emission from a nonthermal electron distribution in a small solar microfl...
We report the detection of emission from a nonthermal electron distribution in a small solar microfl...
The solar corona is an extremely hot, dynamic region of the solar atmosphere. Hard X-ray (HXR) obser...
We report the detection of emission from a nonthermal electron distribution in a small solar microfl...
<p>Impulsive particle acceleration and plasma heating at the Sun, from the largest solar eruptive ev...
Context. Solar nanoflares are small impulsive events releasing magnetic energy in the corona. If nan...
Context. Solar nanoflares are small impulsive events releasing magnetic energy in the corona. If nan...
We review the observations bearing on electron and ion acceleration in solar flares, and the key cha...
We review the observations bearing on electron and ion acceleration in solar flares, and the key cha...
Solar flares are observed at all wavelengths from decameter radio waves to gamma-rays at 100 MeV. Th...
Solar flares are among the most energetic and interesting phenomena in the Solar system, releasing u...
Solar flares are the most vigorous explosive phenomena in our solar system. They release up to $\sim...
Solar flares are huge explosions on the Sun that release a tremendous amount of energy from the coro...
Impulsive particle acceleration and plasma heating at the Sun, from the largest solar eruptive event...
Impulsive particle acceleration and plasma heating at the Sun, from the largest solar eruptive event...
We report the detection of emission from a nonthermal electron distribution in a small solar microfl...
We report the detection of emission from a nonthermal electron distribution in a small solar microfl...
The solar corona is an extremely hot, dynamic region of the solar atmosphere. Hard X-ray (HXR) obser...
We report the detection of emission from a nonthermal electron distribution in a small solar microfl...
<p>Impulsive particle acceleration and plasma heating at the Sun, from the largest solar eruptive ev...
Context. Solar nanoflares are small impulsive events releasing magnetic energy in the corona. If nan...
Context. Solar nanoflares are small impulsive events releasing magnetic energy in the corona. If nan...
We review the observations bearing on electron and ion acceleration in solar flares, and the key cha...
We review the observations bearing on electron and ion acceleration in solar flares, and the key cha...
Solar flares are observed at all wavelengths from decameter radio waves to gamma-rays at 100 MeV. Th...
Solar flares are among the most energetic and interesting phenomena in the Solar system, releasing u...
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